Electrically operated weighing scale



A g- 2r-1 e. E. PLATZER 1,923,745

ELECTRICALLY OPERATED WEIGHING SCALE Filed Jan. 21, 1932 Inventor: George E. Platzer", b8 M' His Attorney.

2' stood from thedfollowing description when considered in connection with the accompanying drawing, which shows a preferred embodiment of my invention, while those features of my invention which are believed tobe novel and p atentable are pointed out in the appended claims.

In the single figure of the drawing, 19 reprcsents flat springs, one end of each spring being secured to; a stationary bracket 11, the remain ing endsof the springs being connected by a tie'member 12 which carries'a receptacle sup: porting member 13. Supporting member 13 may be of any desired form, but is shown, for the sake of simplicity, as an ordinary scale platform adapted to support a receptacle 14 under a feeding chute 15 having a slidablymountedgate 16. Two spaced apart oppositely disposed coils 17 and 18, preferably provided with magnetic cores, are adjustably secured to bracket 11. lhe positions of coils 17 and 18 may be adjusted by turning nuts 19. Between the adjacent ends of; coils 17 and 18, and acting asa part of their magnetic circuits, is an armature 20 which is made of magnetic material and which is secured to the member 12. Coils 1'7 and 18 formtwo arms of a Wheatstone bridge, the other two arms consisting of two impedances21 and 22. An alternating current source 23 energizes the bridge ci cuit through a transformer 24. The coils 17 and 18 are preferably duplicates of each. other with respect, to number of turns, size of wire, etc.,

and the same is true of impedan'ces 21 and 22. It is clear that when armature 20 is substantially .central between the adjacent ends of coils 1'7 and 18, the bridge will be balanced and there this central position the bridge will become unbalanced and there will be a voltage between leads 25. Leads'25 are connected to a suitable full wave rectifier 26 which in turn is connected to leads 2'7, and it is clear that the direct current voltage between leads 27, will be substantially pressed on any suitable electroresponsive meansemployed, for controlling the operation of the various control devices described later, and I therefore wish it clearly understood that my invention .is not to be limited to the particular electroresponsive means I am about to describe,

30 .and .31, the details or construction of the.

micro-ammeter not being shown as they are well known to those skilled in the art Adjustably mounted metallic cups 32 and 33 contain an electrically conducting fluid 34, such as mercury. Cups 32 and 33 are adjusted so that at a.

predetermined position of pointer 29 the arm 30' will make contact with the mercury in cup 32,

and at another predetermined position of pointer 29 the arm 31 will make contact with the mercury in cup 33. This micro-ammeter really con correlated to the weight on the supportingmember 13, so that the micro-ammeter always indicates the weight on member 13. Thus, assuming that it is desired to fill receptacle 14 with one pound of some commodity, such assu'gar, the figures on chart 35 will represent ounces. The gate 16 has an open position and a closed position. Two electromagnets 36 and 37 have-cores of magnetic material 38 and 39, respectively, these cores being secured to a rod which in turn is secured to gate 16. The relative positions of cores 38 and 39 and the coils of their respective electromagnets are such that when core 38 is centrally disposed with respect to the'coil of disposed with respect to the coil of electromagnet 37, and vice versa. Furthermore, the cores 38 and 39 are so secured to rod 40 that if electro- 'electromagnet 36, the core 39 is not centrally magnet 36 is energized the gate 16 will be moved l to its open position, and if electromagnet 37 is energized the gate 16 willbe moved to its closed position. Although not essential, I preferably provide a compressionfspring 41 between one end of rod 40 and a stationary plate 42 in order to make certain that gate 16 will be closed when neither,of'electromagnets 36 and 37 is energized, and also to assist in rapidly closing gate lfiwhen electromagnet 36 is deenergized and electromagnet 37 is energized. Two :electro'magnets 43 and 44 have cores of magnetic material 45 and 46, respectively, these. cores being secured toa rod 47,' The end of rod 47 nearest to receptacle 14 is preferably provided with a flange or bumper 48. The relative positions of cores 45 and 46 and the coils of their respective electromagnets are such that when core 45 is centrallydisposed with respect to the coil of. electroinagnet 43' the core 46 is not centrally disposed with respect to the coil of electromagnet 44,'and vice versa. Furthermore, the cores 45 and 46 are so secured to rod 47 that if electromagnet 43' is energized the rod 47' will be moved to a position where flange 48 will be adjacent to receptacle 14, as shown in the drawing, and if electromagnet .44 is energized the rod 47 will be moved in the direction to move receptacle 1401i" from supporting men 1 ber 13 to a platform 49 whichmay be stationary, or which may be movable for automatically car-i rying away the filled receptacles. Flange 48 should preferably be made 'of a soft or semi-. soft material so that it will not damage recepta- -cle 14 when it is suddenlybrought into contact with the receptacle by the energization of elec tromagnet 44. Although not essential, Ipref erably provide a tension spring 50'between one end of rod 47 and a stationary pin 51 in order to make certain that red 4'! will be in the illus- .trated position when neither of. electromagnets rapidly returning the rod to this position after a receptacle has been moved off supporting mom-f ber 13.

43 and 4 4 is energized; and also to assist inv A relay 52 has a pair of normally vclosed con 7 tacts-53 connected in serieswith electromagnet 36, the coil of thisrelay being connectedin series with electromagnet 43. A relay 54 has a pair of normally closed contacts 55 connected in series with electromagnet 36, the coil of this relay being connected in series with electrcmagnet 37. pair or" contacts 56 are connected in' series with electromagnet 36 and are positioned so as to be closed'by a switch blade 57 secured to rod 47 when the, latter is in the illustrated position, i. e., when flange 48is adjacent to receptacle 14. A relay 58 has" a'pairof normally closed contacts 59 con-' nected in series with electromagnet 44, one end.

60 and the; other end of this coil'being colmectesl to metalliccup 33'. Rod 40: carriesa. switch blade 61 which is suitably positioned; to; close aipairofi contacts 62 When gate l6v is its closed position, the contacts '62 being connected series-with electromagnet' 4.4. A source of direct current. is representedby 1ines;6-3 and 6,4. Line. 63 is con.- nee-ted to leaelfill, and line 64s is connected to; metallicarms and 31; and i-salso connected to. a lead 65-. The-free-end of the coil oi relay 5 is connected to metallic cup 32a. The remainingconnections between the coils, relays, and leads 60,- and 65; are clearly shown in the drawing and neednot be described in detail.

The following is a description of the; operation of the apparatus. i Assume that. the empty re ceptacle Leweighs tiveounces. Coils 1'7 and. L8 will be so adjustedthat when, there. is noreceptacle on supporting member 1 3,tl1eneedle 29 will indicate 0 on chart when an empty receptacle is on the supporting member the needle. 29 :will. indicate 2 on this chart; and when a. pound of -material has hecnied intoihe receptacle the. needle 29. will indicate 1 8. on this chart. It is clear that not, only does needle 29 indicate the eight of the, material in the receptacle, 101113,. in additionnthe moyeinent of metallic, arms 3.0 and I 31 is, responsive toitliecmovement oisupporti-ng.

member 13., .Cup 3.3dsadjusted so thatawhen.

needle 29 indicates. 0.,the armBl will makeclontact' with the mercury in 'this cupg and; when; needle 29 indicates 2 there will. be, no contact. be-

' tween armgl andthe mercury "in this cup,v Cup! BZisadjuSted' so thatwhen needle 29 indicates 18 the arm 30 will just make contact. With the tween arms '30 and 31 and the mercury in cups, 32' and 33. By tracing out the circuits, it is seen that electromagnet and relays 52and= 58: are not energizedbecause there is nocontact between arm 31 and the mercury in cup'33,j and that electromagnet 37 and relay 54 are not energized'because there is no contact between arm'30 and the mercuryin cup-32. 'Tne contacts of relays 52, 54 and 58 will; therefore, be closed, but electroinagnet 44 is. not energized because contacts 62 are open. Electromagnet 25; however; is; en-

, ergized', the circuit being from line 64 lead through contacts 56, 55 and 5-3, tl1e coi-lofelec tromagnet 36, to lead 60, and returntoline 63;

Thegate 1 6' is', therefore-positively held open byelectromagnet 36. Asthe commodity is fed into the receptacle, the pointer 29 moves to the right,-

and when a pound of material has been" fed into receptacle 14 the pointer 29iudicates- 18 on the" chart 35 and metallic arm 30 'just makes contact With. the mercury in'cup 32 thus simultaneously completing the circuit for electromagnet 8'7 and relay 5%, the circuit being from line 64, through arm'SO, cup 32', coil of relay 5i, coil ofel'eciroe magnet .37, to lead 69,. and return toiline fiti. *"Ihe energizaticn of relay 54 causes it to open itscon- 37causes the rapiclclosingof gate 116 ingof gate 116 causes blade 61 toclose contacts 62;. thus completing the circuit for eleotromagnet j 44, this. circuit beingfli-rom; line 6%, to lead through the coil of electromagnet, 1A,.contacts-62s 59,. to-leadrtiil; and return to line fil 1 The ene'rgizatiorn oi electromagnet. moves rode? in the idi'rectionato remove-receptacle -l l oiivirom supporting. "member at 13 ilcifpl'attorm, 49;.

The removal 0i receptacle-'14 from supporting member-13$ icausesneedle 29,1 to swing to the left to, indicate 0.: on the: chat-x1135; thus causing arm 30: tofbreak contactlwrith the-mercury in cup 32;

and: arm. 31 to-make; contact with the'mercury in cup; 33. The breaking: of contact between arm. filland the mercury in cupr32 opens the circuit for: electromagnet 3'7 andrelay 54,. thus 1'- gizingtthems, and; causing relay 5 1 t0 close its con= tactss55t. The closing; of jcontacts 55 does not cause eleo-tromagnet 356 to 'become' energized'because: conmctsififi are now; open due to the move- The: making-fol contact between arm 31' and the mercury cup 3-3: simultaneously Icompletesthe circuits. for electromagnet 43. andrela'ysBZ andi being; throughithe coil oirrelay' 58 tolead' 6.0. and the'other-path'being through thegcoi'l of electro r magnet 43. and: the :coil of relay 52 to: lead 60', q

and from. lead 60 m line 163'. relay 5% causes: it. to: open its contacts 59,-, thus ,deenergizing; electnomagnet c4, and the .energiza tion of electromagnetv is causes it to move? rod The energization of,.'i

to; thepositionshowrr incthe drawin i. e., to

the: position" where flange $86 will be adjacent to the next, receptacle tobe placed on the supportiii-g; member 13;; The movementv of rod 47 to this position also causes switchblade 5'7 to close con-.

tacts 5'6, but thisdoes not cause-electromagnet 36 to become; energized-,1 because; :as previously us.-

scribed,v electromagneu 43, and relay '52 became! simultaneouslyenergized when: arm 31 made contact withthe'mercury in 01111 33; hence, relay 52 closed: The instant another receptacle is placed: om supporting member-13;. needle. 29' moves to the right to: indicate 2rion-tchart' 35 thus causing arm,

31 to bitealczcontacit withthe; mercury in'cup 33;

hence simultaneously "de'ene'rgizing. electromagnet: {3 ancli relays: and 5:8. The dee'nergization of. relay- 152 causes itto: close'its contacts 53 thus completing, the; circuit for electromagnet 36-; whichetherjeuponz' becomes energized and opens; gate; 1 6;- .deenergizingof relay 58' causes it: toclose its: contactszi59; but: this does not cause" the; energizatiom of electromagnet 44, because the movement oilbat the opening rotcontacts 62". Although not es sentiaLdiiis; desirable to construct relay 53 so that'itgwillhavezaislight time delay, in closing its 116(11 in the; art that: it is unnecessary? to; illustrate the structural? details producing the time." dela-y: hence, the' ltime delay producing means is diagrammatically represented by the a-irdashpotfiG: attachedto. the relay and the arrow adjacent to. thedashpot, the arrow repre;

sentlng timedelay ofthe'relayin closing its con tacts when: it isi deenergized. By making relay SBZ-haizeia. very smalltime delay in the closing or"- itsucontactsil'wily it will assure the opening'ofjcon tact's .62 before the'closing 'ofcontacts 59-, thus making absolutely-certain that :electromagn'et electromagnet is also deenergized; hence, rod

47 will remain in the position shown in thedrawing, even without the aid of tension spring v50; until electromagnet 44 is energized; The second receptacle 'is now being filled from chute 15;

hence the apparatus is now in the condition assumed at the beginning of the operating description. It follows that the operation of the ap paratus on each succeeding receptacle will be a repetition of that described. v By employing springs '10 that have suiiicient stiifness, I can eliminate oscillation of supporting member 13-; and thus I can eliminate oscillation of pointer 29'and metallic armsBO' and 31 during the entire process of filling and removing the receptacle. .iBy employing a suitable Wheatstone bridge and micro-ammeter 28, and by'making suitable adjustments in the bridge and microammeter, I can obtain very large movements of pointer 29 andmetallic arms 30 and 31 for .very small. movements of :supporting member 13 Thus, I'can easily obtain an amplification factor as high as-lOOllOO, or even higher, betweenthe movement of supporting member 13 and the movement of pointer 29 and arms 30 and 31. It

a is obvious that such a high'amplification factor cannot be obtained with a pivoted lever'of practical length such as employed in -prior art apparatus. My electrical apparatus, therefore, has

j, a cont'rol'member which does not oscillate in any of the positions it assumes to effectthe energizae tion and deenergization of the variouscontroldevices associated-with the receptacle filling machine, thus effectingthe operation of these con-- L trol devices in a positive manner and in the proper sequence. In addition, my electricalapparatus has a very high degree of accuracy. in effecting'theoperation of these control'devices, thus assuring that receptacle after receptacle will be filled with the correct weight of the commodity. Furthermore, my electrical apparatus is simple, compact, and avoids the use of long levers or other cumbersome mechanical devices.

My electrical apparatus also possesses an importantadvantage'in the. fact that the micro-- 'ammeter accurately indicates the; weight on the supporting member without oscillation of its indicating pointer, thus permitting the operator to determine during the operation of the filling Illachine whether or not the receptacle is being filled with the correct weight of thecommodity. It is alsoobvious that the micro-ammeter may be used only for the purpose of' electrically indicating the weight on the, supporting member, in

which case, of course, the metallic contact arms the microcarried by the indicating pointer of ammeter may be omitted. f I

, In accordance with the provisions of the patent statutes, I have described the principlesof operation of my invention, together with the apparatus which Iinow consider .to represent the best embodiment thereof,,but' I desire to have it understood that the apparatus shown and described is onlyillustrative andthat the invention may be carried out'by other means. v

What 'I claim as newand desire to secure by Letters Patent of the United States, is,-

1. Incombination, asmovable weight supporting member Whose position varies in accordance with the Weight it supports, two coils, a magnetic member located adjacent to said coils tofunction as apart of their magnetic circuits, said coils and magnetic member beingrelatively movable, means for changing the relative positions of said coils and magnetic member in response to the movement of said supporting member, meansfor obtaining from saidcoils a'voltage whose magnitude changes in response to the change in relative positions of said coils and magneticmem- ,ber, electroresponsive means, connecting means for impressing on said electroresponsive means a voltage Whose magnitude is responsive to the voltage obtained from said coils, anelectrically operated control device, and means controlled by a said electroresponsive means for effecting the operation of said control device at a predetermined position of said Weight supporting member.-

2. In combination, a movable weight supporting member Whose position varies in accordance with the Weight it supports, a Wheatstone bridge having a coil connected infone of its arms, a.

magnetic member located adjacent to said coil to function as apart of its magnetic circuit, said coil and magneticmember being relatively, movable, means for changing the relative positions of saidcoil and magnetic member in responsecto the movement of said supporting member, electroresponsive meanaconnecting means for impressing on saidelectroresponsivemeans a voltage vrhose magnitude'is responsive to the difference of potentialjacross the Wheatstone'bridge,

caused by an unbalance thereof, an electrically operated control device, and means controlled by said electroresponsive means for effecting the operation of said control device at a predetermined position of said weight supporting member.

3., An electrically operated weighing scale comprising a movable weight supporting member Whose position varies in accordance With the Weight; it supports, two coils, a magnetic mem- 1 her located adjacent to said coils to function as apart oi their magnetic circuits, said coils and magnetic member being relatively movable, means for changing the relative positions of said coils and magnetic member in response to the movement or" said supporting member, meansffor.

obtaining fromsaid coils a voltage whose mag nitude changes inresponse to the'change in relativepositions of said coils and magnetic member, an electrical instrument provided with a pointer coopcrating' with a chart having onits'.

face aseries of figures correlated to the weight on said supporting member, said pointer and chart being relatively movable in accordance with the voltage impressed on said instrument,

and connecting means for impressing on said in strument a voltage whose magnitude is responsive to the, voltage obtained from said coils.

l. An electrically operated weigl'iing scale comprising a movable Weight supporting member Whose. position; varies in accordance with the weight; it supportsQa Wheatstone bridge having a coil connected in one of itsarms, a magnetic magnetic member relatively said coil and magnetic member in response to the movement of'said supporting member, an elec-- member located adjacent to said coil to function as a part of its magnetic circuit, said coil and e e movable, means for' changing the relative positions of cuits, said magnetic member having one end said tie member, an electrical'indicating instrua tric'al instrument provided with a pointer-coopcrating with a chart having on its face a series' of figurescorrelated to the'weight on said supporting member,said pointer and chart being relatively movable in'accordance with thevoltage impressed on said instrument, and connecting means for impressing on said instrument a voltage whose magnitude is responsive to the differ-' thereof secured to said tie member, electrore sponsive means having a movable element whose position changes in accordance with the voltage impressed on the electroresponsive means, connecting means for impressing on said electroresponsive means a voltage whosem'agnitude is responsive to the difference of potential across the Weatstone bridge, caused by an unbalance thereof, an electrically operated control device,

and means controlled by said movable element for effecting the operation of said control device at a predetermined position of said movable cle ment. I

6. An electrically operated weighing scale come prising two resilient members, means for securing one end of each resilient member toa stationary body, a tie member for connecting the remaining ends of said resilient members, a supporting member carried by said tie member, a Wheatstone bridge having two stationary spaced apart oppositely disposed coils respectivelypconnected in two of its arms, a magnetic member. between the adjacent ends of said coils to function as part of theirmagnetic circuits, said mag netic member having one end thereof secured to ment provided with a movable indicating pointer whose position varies in accordance with the voltage impressed on said instrument, said pointer being adapted to move over a fixed chart having on its face a series of figures correlated to the weight on said supporting member, and connecting means for impressing on said instrument a voltage whose magnitude is responsive to the difference of potential across the Wheatstone bridge, caused byan unbalance thereof.

'7. Inan automatic weighing scale, the combination of a movable supporting member whose position varies in accordance with the weight it supports, said supporting member being adapted to support a receptacle, afeed chute for feeding material into said receptacle, a gate'ior said chute, said gate having an open position and a closed position, means for moving said gate to its open position, means for making said gate opening means ineiiective, and means responsive to the'position of said supporting member for effecting the operation of the second mentioned means when thereis no receptacle on said supporting member.

8. In an automatic weighing scale, the aim.

bination of a movable supporting member whose positionvaries in accordance with the weight it supports, said supporting member being adapted to support a receptacle, means for-removing said receptacle from said supporting member, and means responsive to the movement of said-sup'-' porting member for making said receptacle re-. moving-means inoperative'ivhen there is no re-. cep'tacle on said supporting member.

9. In an automatic weigh bination of c -movablesupporting member whose position varies in accordance with the weightrit f supports, said supporting. member being adapted to support a receptacle,- a iced chute for feeding material into said receptacle, agate for said chute, said gate having an open position and a closed position, means for removing said receptacle from said supporting member, means for scale; the commaking said receptacle removingmeans ineffec five-means responsive to .the position of said supporting member for making the second man tioned means operative when there is no receptacle onfsaid supporting member and inopera tive when thereis a receptacle on said supporting member, and means responsive tothe closed J 7 position of said gate and responsive to the inoperative state of the secondmenti'oned means for effecting the operation of said'receptacle removing means.

1B. In an automaticweighing scale, the. com

bination of a movable supporting member whose position varies in accordance withthe weight it chute, said" gate having an open position and,

a closed positionjan electromagnetior moving saidcgate to its open position, an electromagnet io'r moving said gateto its closed position, a

relay having apair of normally closed contacts in series with the first mentioned electromagnet, and means responsive tothe position of said supporting member for simultaneously"effecting the energization of the second mentioned'electrcmagnet and said relay when a predetermined weight of material has been-fed into said receptacle. I. c

11. In an automatic weighing scale, the combination of a movable supporting member. whose position varies in accordance with the weight it supports, said supporting member being adapted to support a receptacle, a movable rod, an electromagnet for moving said rod to a position where one of its ends is adjacent to said recep .tacle, an electromagnet for moving said rod in the direction to move said receptacle or: said supporting member, a relay having a pair ofnormally closed contacts in series with the second mentioned electromagnet, and means re sponsive to the position of said supporting me; ber for effecting the energization of the ,first mentioned electromagnet and said relay-when there is norcceptacle on said supporting member,

1-2. In an automatic weighing scale, the, com-., bination of a movable supporting membervlhose' position varies in accordance with the weightit supports, said supporting member being adapted" to support a receptacle, a feed chute for feeding material into said receptacle, a gate forflsaid chute, said gate having, an open position and a closed position, means for moving said gate to its open position, a movable rod having a nor-' mally stationary position with one'of its ends adjacent to said receptacle, means for moving said rod inthedirection to move said receptacle off said supporting member, and means controlled by said rod for making said gate 'openingmeans supports, said supporting memberbeing adapted m to support a receptacle, a feed chute for feeding, V

inaterial into said jre'ceptacle, argate for said ineiiective when the rod moves away, from its normally stationary position.

13. An automatic weighing scale comprising a' movable supporting member whose position varies ii -accordance with the weight it supports, said supporting member being adapted to sup port a receptacle, a feed chute for feeding material into said receptacle, a gate ,for said chute, said gate having an open position and a closed position, means for moving said gate to its closed position, a movable rod, an electromagnet for moving said rod to a position where one of its ends is adjacent to said receptacle, an electromagnetfor moving said rod in the direction to move said receptacle on said supporting member, electroresponsive means, means for impressing on said electroresponsive means a voltage Whose magnitude changes in response to changes in the position of said supporting member, means controlled by said electroresponsive means for effecting the operation of said gate closing means when a predetermined weight oflmaterialthas' been fed into the receptacle on said supporting v member, and means controlled by said electroresponsivemeans for efiecting the energization of the first mentioned electromagnet and the deenergization of the second mentioned electromagnet when there is no receptacle on said supporting member.

' gate havingian open position and a closed posi-- tion, an electromagnet for moving said gate to its open position, an electromagnet for moving said gate to its closed position, a movable rod, an electromagnet for moving said-rod to a position Where one oijits ends is adjacent'to said receptacle, an electromagnet for imovingsaid rod in the direction to move said receptacle off said supporting member, a relay having a pair of normally closed contacts in series with the first mentioned electromagnet,,a second relay having a pair of normally closed contacts in series with the first mentioned electromagnet, a third relay having a pair of normally closed contacts in series with the last entioned electromagnet, electroresponsive means, means for impressing on electroresponsive means a voltage whose magnitude changes in response to changes in the position of said supporting member, means controlled by said electroresponsive means for effecting the energization of the second mentioned electromagnet and the second mentioned relay when a predetermined weight of material has been fed into the receptacle on said supporting member, and means controlled by said electroresponsive means for efiecting the en'ergization of the third mentioned electromagnet andthe first and last mentioned relays when there is no receptacle on said supporting member.

each having a pair of normally closed contacts supports, said supporting in-series with said electromagnet, electroresponsive means, means for impressing on said electroresponsive means a voltage whose magnitude changes in response to changesin the position of: said supporting member, ,means controlled by said eiectroresponsive means for effecting the energization of one or" said r lays when a predetermined Weight of material has beenied into the receptacle onsaid supporting member, and means controlled by said electroresponsive means for effecting the energization of the other of said relays when there is, no receptacleon said sup-v porting member.

16. In an automatic weighing scale, the combination of a movable supporting member whose position variesv in accordance with the weight it supports, said supporting memberbeing adapted to support areceptacle, a feed chute for feeding material into said receptacle, a gate for said chute, said gate having anopen position and a closed position, means for moving said gate to its closed position, a Wheatstone bridge having a coil connected in one of its arms, a'magnetic member located adjacent to said coil to function as a part of its magnetic circuit, said coil and magnetic. member being means for changing the relative positions of said coil and magnetic member in response to the movement of said supportin member, electro-V responsive means, connecting means for impressing on said-,electroresponsive means a voltage whose magnitude is responsive to the diiierence of potential across the Wheatstone bridge, caused an unbalance thereof, and means controlled by said electr responsive means. for effecting the operation of said gate closing means when a predetermined weight ,of material has been fed into said receptacle.

17. In an automatic weighing scale, the combination ofa movable supporting member whose position varies in accordance with the weight it member being adapted to support a receptacle, a movable rod, an electromagnet for moving one of its ends is adjacent to said receptacle, an electromagnet for moving said rod in'the direction to move said receptacle off said supporting member, a Wheatstone having a coil connected-in one of its arms, a magnetic member located adjacent to said coil to iunction as a part of its magnetic circuit, said coil and magnetic member being relatively movable, means for changing the relative positions of said coil and id rod to a position where magnetic member in response to the movement,

of said supporting member, electroresponsive means, connecting means for impressing on-said electroresponsive means a voltage whose magnitude is responsive to the'diiference of potential across the Wheatstcne bridge, caused by an unbalance thereof, and means controlled by said electroresponsive means for effecting the en-' ergiLZation of the first mentioned electromagnet and the deenergization ofsthe second mentioned electromagnet when there is no receptacle on said supporting member. I

18. In an automatic Weighing scale, the combination of a movable supporting memberwhose position varies in accordance withthe weight it supports, said supporting member being'adapted to support a receptacle, a feed chute for feeding material into said receptacle, agate for said chute, said gate having an open position'and a. I

closed position, anelectromagnet for moving said gate to its open position, an electromagnet for moving said gate to its closed position, a movablerod, an electromagnet for moving said rod in the direction to move said, receptacle off said sup-1 porting member, a Wheatstone bridge having a coil connected in one of its arms, a magnetic member located adjacent to said coil to function as a part of its magnetic circuit, said cell and magnetic member being relatively movable, means for changing the relative positions of, said coil and magnetic member in response to the movement of said supporting member, electroresponsive means, connecting means for impressing on said electroresponsive means a voltage whose magnitude is responsive to the difference of potential across the Wheatstone bridge, caused by an unbalance thereof, means controlled by said electroresponsive means for efiecting the deenergization of the first mentioned electroznagnet and the energization of the second'mentioned electromagnot when a predetermined weight of material has been fed into the receptacle on said supporting member, and means responsive to the closedposition of said gate for effecting the energization of the third mentioned electromagnet.

19. In an automatic weigl'iing scale, the combination of a movable supporting member whose position varies in accordance with the weight it supports, said supporting member being adapted to support a receptacle, a feed chute for feeding material into said receptacle, a gate for said chute, said gate having an open position and a closed position, an elec romagnet for moving said gate to its open position, a relay having a pair of normally closed contacts inseries with said electromagnet, a movable rod, an electromagnet for moving said rod to a position where one of' its ends is adjacent to said receptacle, an electromagnet for moving said rod in the direction to move said receptacle off said supporting member, a relay having a pair of normally closed contacts in series with the last mentioned electromagnet, a Wheatstone bridge having a coil connected inone of its arms, a magnetic member located adjacent to said coil to function as a part of its magnetic circuit, said coil and magnetic member being relatively movabla'means changing the relative positions of said coil and magnetic memher in response to the moveme t ofsaid sup porting member, electrorespcnve means, connecting means for impressing on said electroresponsive means a voltage whose magnitude is responsive to the difference of potential across the Wheatstone bridge, caused by an unbalance thereof, and means controlled by said electroresponsive means for effecting the energization of the second mentioned electromagnet and both of said relays when there is no receptacle on said supporting member.

20. An automatic weighing scale comprising a movable supporting member whose position varice in accordance with the weight it supports, said'supportin'g member being adapted tosupport a receptacle, a feed chute for feeding material into said receptacle, agate forsaid chute, said gate having'an open position and a closed position, an electromagnet for moving said gate to" its open position, an electromagnet formoving said gate to its closed position, a movable rod, an electromagnet for moving said rod to a normally one of its ends is adjacent to said receptacle, an electromagnet for moving said rod in the direction to move said receptacle ofi said supporting member, three pairs of contacts connected in series with the first mentioned electromagnet, a relay for controlling one pair of said contacts, a relay for controlling a second pair of said contacts, a switch member controlled by said rod and adapted to close the third pair of said contacts when the rod is in its normally stationary: position, two additional pairs of contacts connected in series with the last mentioned electromagnet, a relay for controlling one pair stationary position where 7 of said additional contacts, a switch member cona trolled by the gate moving means and adapted,

to close the second pair of said additional con-' tacts when the gateis in its'closed position, a Wheatstone bridge having two' spaced apart oppositely disposed coils respectively connected in.

two of its arms, an armature of magnetic material located adjacent to said coils to function as a part'of their magnetic circuits, said coils andjarmature being relatively movable, means for changing the relative positions of said coils and.

armature in response to the movement of said.

supporting member, electroresponsive 'means@ connecting means for impressing on said electroresponsivemeans a voltage whose magnitude is responsive to the difference of potential across the Wheatstone bridge, caused by an unbalance thereof, said electroresponsive meanshaving a movable element whose position changes in .ac

, receptacle, and means controlled by saidmovable cordance with the voltage impressed on said element for effecting the energization of the third mentioned electromagnet and the first and last mentioned relays when there is no receptacle on said supporting member.

GEORGE E. PLATZER. 

